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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com>
*
* Adapted from coreboot src/arch/x86/smbios.c
*/
#define LOG_CATEGORY LOGC_BOARD
#include <dm.h>
#include <env.h>
#include <linux/stringify.h>
#include <linux/string.h>
#include <mapmem.h>
#include <smbios.h>
#include <sysinfo.h>
#include <tables_csum.h>
#include <version.h>
#include <malloc.h>
#include <dm/ofnode.h>
#ifdef CONFIG_CPU
#include <cpu.h>
#include <dm/uclass-internal.h>
#endif
/* Safeguard for checking that U_BOOT_VERSION_NUM macros are compatible with U_BOOT_DMI */
#if U_BOOT_VERSION_NUM < 2000 || U_BOOT_VERSION_NUM > 2099 || \
U_BOOT_VERSION_NUM_PATCH < 1 || U_BOOT_VERSION_NUM_PATCH > 12
#error U_BOOT_VERSION_NUM macros are not compatible with DMI, fix U_BOOT_DMI macros
#endif
/*
* U_BOOT_DMI_DATE contains BIOS Release Date in format mm/dd/yyyy.
* BIOS Release Date is calculated from U-Boot version and fixed day 01.
* So for U-Boot version 2021.04 it is calculated as "04/01/2021".
* BIOS Release Date should contain date when code was released
* and not when it was built or compiled.
*/
#if U_BOOT_VERSION_NUM_PATCH < 10
#define U_BOOT_DMI_MONTH "0" __stringify(U_BOOT_VERSION_NUM_PATCH)
#else
#define U_BOOT_DMI_MONTH __stringify(U_BOOT_VERSION_NUM_PATCH)
#endif
#define U_BOOT_DMI_DAY "01"
#define U_BOOT_DMI_YEAR __stringify(U_BOOT_VERSION_NUM)
#define U_BOOT_DMI_DATE U_BOOT_DMI_MONTH "/" U_BOOT_DMI_DAY "/" U_BOOT_DMI_YEAR
DECLARE_GLOBAL_DATA_PTR;
/**
* struct map_sysinfo - Mapping of sysinfo strings to DT
*
* @si_str: sysinfo string
* @dt_str: DT string
* @max: Max index of the tokenized string to pick. Counting starts from 0
*
*/
struct map_sysinfo {
const char *si_node;
const char *si_str;
const char *dt_str;
int max;
};
static const struct map_sysinfo sysinfo_to_dt[] = {
{ .si_node = "system", .si_str = "product", .dt_str = "model", 2 },
{ .si_node = "system", .si_str = "manufacturer", .dt_str = "compatible", 1 },
{ .si_node = "baseboard", .si_str = "product", .dt_str = "model", 2 },
{ .si_node = "baseboard", .si_str = "manufacturer", .dt_str = "compatible", 1 },
};
/**
* struct smbios_ctx - context for writing SMBIOS tables
*
* @node: node containing the information to write (ofnode_null()
* if none)
* @dev: sysinfo device to use (NULL if none)
* @subnode_name: sysinfo subnode_name. Used for DT fallback
* @eos: end-of-string pointer for the table being processed.
* This is set up when we start processing a table
* @next_ptr: pointer to the start of the next string to be added.
* When the table is not empty, this points to the byte
* after the \0 of the previous string.
* @last_str: points to the last string that was written to the table,
* or NULL if none
*/
struct smbios_ctx {
ofnode node;
struct udevice *dev;
const char *subnode_name;
char *eos;
char *next_ptr;
char *last_str;
};
/**
* Function prototype to write a specific type of SMBIOS structure
*
* @addr: start address to write the structure
* @handle: the structure's handle, a unique 16-bit number
* @ctx: context for writing the tables
* Return: size of the structure
*/
typedef int (*smbios_write_type)(ulong *addr, int handle,
struct smbios_ctx *ctx);
/**
* struct smbios_write_method - Information about a table-writing function
*
* @write: Function to call
* @subnode_name: Name of subnode which has the information for this function,
* NULL if none
*/
struct smbios_write_method {
smbios_write_type write;
const char *subnode_name;
};
static const struct map_sysinfo *convert_sysinfo_to_dt(const char *node, const char *si)
{
int i;
for (i = 0; i < ARRAY_SIZE(sysinfo_to_dt); i++) {
if (node && !strcmp(node, sysinfo_to_dt[i].si_node) &&
!strcmp(si, sysinfo_to_dt[i].si_str))
return &sysinfo_to_dt[i];
}
return NULL;
}
/**
* smbios_add_string() - add a string to the string area
*
* This adds a string to the string area which is appended directly after
* the formatted portion of an SMBIOS structure.
*
* @ctx: SMBIOS context
* @str: string to add
* Return: string number in the string area. 0 if str is NULL.
*/
static int smbios_add_string(struct smbios_ctx *ctx, const char *str)
{
int i = 1;
char *p = ctx->eos;
if (!str)
return 0;
for (;;) {
if (!*p) {
ctx->last_str = p;
strcpy(p, str);
p += strlen(str);
*p++ = '\0';
ctx->next_ptr = p;
*p++ = '\0';
return i;
}
if (!strcmp(p, str)) {
ctx->last_str = p;
return i;
}
p += strlen(p) + 1;
i++;
}
}
/**
* get_str_from_dt - Get a substring from a DT property.
* After finding the property in the DT, the function
* will parse comma-separated values and return the value.
* If nprop->max exceeds the number of comma-separated
* elements, the last non NULL value will be returned.
* Counting starts from zero.
*
* @nprop: sysinfo property to use
* @str: pointer to fill with data
* @size: str buffer length
*/
static
void get_str_from_dt(const struct map_sysinfo *nprop, char *str, size_t size)
{
const char *dt_str;
int cnt = 0;
char *token;
memset(str, 0, size);
if (!nprop || !nprop->max)
return;
dt_str = ofnode_read_string(ofnode_root(), nprop->dt_str);
if (!dt_str)
return;
memcpy(str, dt_str, size);
token = strtok(str, ",");
while (token && cnt < nprop->max) {
strlcpy(str, token, strlen(token) + 1);
token = strtok(NULL, ",");
cnt++;
}
}
/**
* smbios_add_prop_si() - Add a property from the devicetree or sysinfo
*
* Sysinfo is used if available, with a fallback to devicetree
*
* @ctx: context for writing the tables
* @prop: property to write
* @sysinfo_id: unique identifier for the string value to be read
* @dval: Default value to use if the string is not found or is empty
* Return: 0 if not found, else SMBIOS string number (1 or more)
*/
static int smbios_add_prop_si(struct smbios_ctx *ctx, const char *prop,
int sysinfo_id, const char *dval)
{
int ret;
if (!dval || !*dval)
dval = NULL;
if (!prop)
return smbios_add_string(ctx, dval);
if (sysinfo_id && ctx->dev) {
char val[SMBIOS_STR_MAX];
ret = sysinfo_get_str(ctx->dev, sysinfo_id, sizeof(val), val);
if (!ret)
return smbios_add_string(ctx, val);
}
if (IS_ENABLED(CONFIG_OF_CONTROL)) {
const char *str = NULL;
char str_dt[128] = { 0 };
/*
* If the node is not valid fallback and try the entire DT
* so we can at least fill in manufacturer and board type
*/
if (ofnode_valid(ctx->node)) {
str = ofnode_read_string(ctx->node, prop);
} else {
const struct map_sysinfo *nprop;
nprop = convert_sysinfo_to_dt(ctx->subnode_name, prop);
get_str_from_dt(nprop, str_dt, sizeof(str_dt));
str = (const char *)str_dt;
}
ret = smbios_add_string(ctx, str && *str ? str : dval);
return ret;
}
return 0;
}
/**
* smbios_add_prop() - Add a property from the devicetree
*
* @prop: property to write. The default string will be written if
* prop is NULL
* @dval: Default value to use if the string is not found or is empty
* Return: 0 if not found, else SMBIOS string number (1 or more)
*/
static int smbios_add_prop(struct smbios_ctx *ctx, const char *prop,
const char *dval)
{
return smbios_add_prop_si(ctx, prop, SYSINFO_ID_NONE, dval);
}
static void smbios_set_eos(struct smbios_ctx *ctx, char *eos)
{
ctx->eos = eos;
ctx->next_ptr = eos;
ctx->last_str = NULL;
}
int smbios_update_version(const char *version)
{
char *ptr = gd->smbios_version;
uint old_len, len;
if (!ptr)
return log_ret(-ENOENT);
/*
* This string is supposed to have at least enough bytes and is
* padded with spaces. Update it, taking care not to move the
* \0 terminator, so that other strings in the string table
* are not disturbed. See smbios_add_string()
*/
old_len = strnlen(ptr, SMBIOS_STR_MAX);
len = strnlen(version, SMBIOS_STR_MAX);
if (len > old_len)
return log_ret(-ENOSPC);
log_debug("Replacing SMBIOS type 0 version string '%s'\n", ptr);
memcpy(ptr, version, len);
#ifdef LOG_DEBUG
print_buffer((ulong)ptr, ptr, 1, old_len + 1, 0);
#endif
return 0;
}
/**
* smbios_string_table_len() - compute the string area size
*
* This computes the size of the string area including the string terminator.
*
* @ctx: SMBIOS context
* Return: string area size
*/
static int smbios_string_table_len(const struct smbios_ctx *ctx)
{
/* In case no string is defined we have to return two \0 */
if (ctx->next_ptr == ctx->eos)
return 2;
/* Allow for the final \0 after all strings */
return (ctx->next_ptr + 1) - ctx->eos;
}
static int smbios_write_type0(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type0 *t;
int len = sizeof(struct smbios_type0);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type0));
fill_smbios_header(t, SMBIOS_BIOS_INFORMATION, len, handle);
smbios_set_eos(ctx, t->eos);
t->vendor = smbios_add_prop(ctx, NULL, "U-Boot");
t->bios_ver = smbios_add_prop(ctx, "version", PLAIN_VERSION);
if (t->bios_ver)
gd->smbios_version = ctx->last_str;
log_debug("smbios_version = %p: '%s'\n", gd->smbios_version,
gd->smbios_version);
#ifdef LOG_DEBUG
print_buffer((ulong)gd->smbios_version, gd->smbios_version,
1, strlen(gd->smbios_version) + 1, 0);
#endif
t->bios_release_date = smbios_add_prop(ctx, NULL, U_BOOT_DMI_DATE);
#ifdef CONFIG_ROM_SIZE
t->bios_rom_size = (CONFIG_ROM_SIZE / 65536) - 1;
#endif
t->bios_characteristics = BIOS_CHARACTERISTICS_PCI_SUPPORTED |
BIOS_CHARACTERISTICS_SELECTABLE_BOOT |
BIOS_CHARACTERISTICS_UPGRADEABLE;
#ifdef CONFIG_GENERATE_ACPI_TABLE
t->bios_characteristics_ext1 = BIOS_CHARACTERISTICS_EXT1_ACPI;
#endif
#ifdef CONFIG_EFI_LOADER
t->bios_characteristics_ext2 |= BIOS_CHARACTERISTICS_EXT2_UEFI;
#endif
t->bios_characteristics_ext2 |= BIOS_CHARACTERISTICS_EXT2_TARGET;
/* bios_major_release has only one byte, so drop century */
t->bios_major_release = U_BOOT_VERSION_NUM % 100;
t->bios_minor_release = U_BOOT_VERSION_NUM_PATCH;
t->ec_major_release = 0xff;
t->ec_minor_release = 0xff;
len = t->length + smbios_string_table_len(ctx);
*current += len;
unmap_sysmem(t);
return len;
}
static int smbios_write_type1(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type1 *t;
int len = sizeof(struct smbios_type1);
char *serial_str = env_get("serial#");
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type1));
fill_smbios_header(t, SMBIOS_SYSTEM_INFORMATION, len, handle);
smbios_set_eos(ctx, t->eos);
t->manufacturer = smbios_add_prop_si(ctx, "manufacturer",
SYSINFO_ID_SMBIOS_SYSTEM_MANUFACTURER,
NULL);
t->product_name = smbios_add_prop_si(ctx, "product",
SYSINFO_ID_SMBIOS_SYSTEM_PRODUCT,
NULL);
t->version = smbios_add_prop_si(ctx, "version",
SYSINFO_ID_SMBIOS_SYSTEM_VERSION,
NULL);
if (serial_str) {
t->serial_number = smbios_add_prop(ctx, NULL, serial_str);
strncpy((char *)t->uuid, serial_str, sizeof(t->uuid));
} else {
t->serial_number = smbios_add_prop_si(ctx, "serial",
SYSINFO_ID_SMBIOS_SYSTEM_SERIAL,
NULL);
}
t->wakeup_type = SMBIOS_WAKEUP_TYPE_UNKNOWN;
t->sku_number = smbios_add_prop_si(ctx, "sku",
SYSINFO_ID_SMBIOS_SYSTEM_SKU, NULL);
t->family = smbios_add_prop_si(ctx, "family",
SYSINFO_ID_SMBIOS_SYSTEM_FAMILY, NULL);
len = t->length + smbios_string_table_len(ctx);
*current += len;
unmap_sysmem(t);
return len;
}
static int smbios_write_type2(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type2 *t;
int len = sizeof(struct smbios_type2);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type2));
fill_smbios_header(t, SMBIOS_BOARD_INFORMATION, len, handle);
smbios_set_eos(ctx, t->eos);
t->manufacturer = smbios_add_prop_si(ctx, "manufacturer",
SYSINFO_ID_SMBIOS_BASEBOARD_MANUFACTURER,
NULL);
t->product_name = smbios_add_prop_si(ctx, "product",
SYSINFO_ID_SMBIOS_BASEBOARD_PRODUCT,
NULL);
t->version = smbios_add_prop_si(ctx, "version",
SYSINFO_ID_SMBIOS_BASEBOARD_VERSION,
NULL);
t->serial_number = smbios_add_prop_si(ctx, "serial",
SYSINFO_ID_SMBIOS_BASEBOARD_SERIAL,
NULL);
t->asset_tag_number = smbios_add_prop_si(ctx, "asset-tag",
SYSINFO_ID_SMBIOS_BASEBOARD_ASSET_TAG,
NULL);
t->feature_flags = SMBIOS_BOARD_FEATURE_HOSTING;
t->board_type = SMBIOS_BOARD_MOTHERBOARD;
t->chassis_handle = handle + 1;
len = t->length + smbios_string_table_len(ctx);
*current += len;
unmap_sysmem(t);
return len;
}
static int smbios_write_type3(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type3 *t;
int len = sizeof(struct smbios_type3);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type3));
fill_smbios_header(t, SMBIOS_SYSTEM_ENCLOSURE, len, handle);
smbios_set_eos(ctx, t->eos);
t->manufacturer = smbios_add_prop(ctx, "manufacturer", NULL);
t->chassis_type = SMBIOS_ENCLOSURE_DESKTOP;
t->bootup_state = SMBIOS_STATE_SAFE;
t->power_supply_state = SMBIOS_STATE_SAFE;
t->thermal_state = SMBIOS_STATE_SAFE;
t->security_status = SMBIOS_SECURITY_NONE;
len = t->length + smbios_string_table_len(ctx);
*current += len;
unmap_sysmem(t);
return len;
}
static void smbios_write_type4_dm(struct smbios_type4 *t,
struct smbios_ctx *ctx)
{
u16 processor_family = SMBIOS_PROCESSOR_FAMILY_UNKNOWN;
const char *vendor = NULL;
const char *name = NULL;
#ifdef CONFIG_CPU
char processor_name[49];
char vendor_name[49];
struct udevice *cpu = NULL;
uclass_find_first_device(UCLASS_CPU, &cpu);
if (cpu) {
struct cpu_plat *plat = dev_get_parent_plat(cpu);
if (plat->family)
processor_family = plat->family;
t->processor_id[0] = plat->id[0];
t->processor_id[1] = plat->id[1];
if (!cpu_get_vendor(cpu, vendor_name, sizeof(vendor_name)))
vendor = vendor_name;
if (!cpu_get_desc(cpu, processor_name, sizeof(processor_name)))
name = processor_name;
}
#endif
t->processor_family = 0xfe;
t->processor_family2 = processor_family;
t->processor_manufacturer = smbios_add_prop(ctx, NULL, vendor);
t->processor_version = smbios_add_prop(ctx, NULL, name);
}
static int smbios_write_type4(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type4 *t;
int len = sizeof(struct smbios_type4);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type4));
fill_smbios_header(t, SMBIOS_PROCESSOR_INFORMATION, len, handle);
smbios_set_eos(ctx, t->eos);
t->processor_type = SMBIOS_PROCESSOR_TYPE_CENTRAL;
smbios_write_type4_dm(t, ctx);
t->status = SMBIOS_PROCESSOR_STATUS_ENABLED;
t->processor_upgrade = SMBIOS_PROCESSOR_UPGRADE_NONE;
t->l1_cache_handle = 0xffff;
t->l2_cache_handle = 0xffff;
t->l3_cache_handle = 0xffff;
len = t->length + smbios_string_table_len(ctx);
*current += len;
unmap_sysmem(t);
return len;
}
static int smbios_write_type32(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type32 *t;
int len = sizeof(struct smbios_type32);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type32));
fill_smbios_header(t, SMBIOS_SYSTEM_BOOT_INFORMATION, len, handle);
smbios_set_eos(ctx, t->eos);
*current += len;
unmap_sysmem(t);
return len;
}
static int smbios_write_type127(ulong *current, int handle,
struct smbios_ctx *ctx)
{
struct smbios_type127 *t;
int len = sizeof(struct smbios_type127);
t = map_sysmem(*current, len);
memset(t, 0, sizeof(struct smbios_type127));
fill_smbios_header(t, SMBIOS_END_OF_TABLE, len, handle);
*current += len;
unmap_sysmem(t);
return len;
}
static struct smbios_write_method smbios_write_funcs[] = {
{ smbios_write_type0, "bios", },
{ smbios_write_type1, "system", },
{ smbios_write_type2, "baseboard", },
/* Type 3 must immediately follow type 2 due to chassis handle. */
{ smbios_write_type3, "chassis", },
{ smbios_write_type4, },
{ smbios_write_type32, },
{ smbios_write_type127 },
};
ulong write_smbios_table(ulong addr)
{
ofnode parent_node = ofnode_null();
ulong table_addr, start_addr;
struct smbios3_entry *se;
struct smbios_ctx ctx;
ulong tables;
int len = 0;
int handle = 0;
int i;
ctx.node = ofnode_null();
if (IS_ENABLED(CONFIG_OF_CONTROL) && CONFIG_IS_ENABLED(SYSINFO)) {
uclass_first_device(UCLASS_SYSINFO, &ctx.dev);
if (ctx.dev) {
int ret;
parent_node = dev_read_subnode(ctx.dev, "smbios");
ret = sysinfo_detect(ctx.dev);
/*
* ignore the error since many boards don't implement
* this and we can still use the info in the devicetree
*/
ret = log_msg_ret("sys", ret);
}
} else {
ctx.dev = NULL;
}
start_addr = addr;
/* move past the (so-far-unwritten) header to start writing structs */
addr = ALIGN(addr + sizeof(struct smbios3_entry), 16);
tables = addr;
/* populate minimum required tables */
for (i = 0; i < ARRAY_SIZE(smbios_write_funcs); i++) {
const struct smbios_write_method *method;
method = &smbios_write_funcs[i];
ctx.subnode_name = NULL;
if (method->subnode_name) {
ctx.subnode_name = method->subnode_name;
if (IS_ENABLED(CONFIG_OF_CONTROL))
ctx.node = ofnode_find_subnode(parent_node,
method->subnode_name);
}
len += method->write((ulong *)&addr, handle++, &ctx);
}
/*
* We must use a pointer here so things work correctly on sandbox. The
* user of this table is not aware of the mapping of addresses to
* sandbox's DRAM buffer.
*/
table_addr = (ulong)map_sysmem(tables, 0);
/* now go back and write the SMBIOS3 header */
se = map_sysmem(start_addr, sizeof(struct smbios3_entry));
memset(se, '\0', sizeof(struct smbios3_entry));
memcpy(se->anchor, "_SM3_", 5);
se->length = sizeof(struct smbios3_entry);
se->major_ver = SMBIOS_MAJOR_VER;
se->minor_ver = SMBIOS_MINOR_VER;
se->doc_rev = 0;
se->entry_point_rev = 1;
se->table_maximum_size = len;
se->struct_table_address = table_addr;
se->checksum = table_compute_checksum(se, sizeof(struct smbios3_entry));
unmap_sysmem(se);
return addr;
}
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